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Passivity-Based Control of Distributed Teleoperation With Velocity/Force Manipulability Optimization

Yuan Yang, Aiguo Song, Lifeng Zhu, Baoguo Xu, Guangming Song, Yang Shi

2024IEEE Transactions on Robotics12 citationsDOI

Abstract

This article proposes a distributed passivity-based bilateral teleoperation control for optimizing the velocity/force manipulability of the coordinated remote redundant manipulators during the task execution. Following the leader–follower paradigm, the control connects a local haptic device with a leader remote manipulator and coordinates all the leader and follower remote manipulators. The approach is novel in reconciling the potential conflicts between the pose synchronization task and the manipulability optimization task for the remote manipulators by two-layer auxiliary systems. The first layer decouples the pose synchronization constraints into separable position and orientation constraints, and the second layer optimizes the manipulability under the position and orientation constraints. The approach is robust by designing smooth controls for the manipulators without knowing their dynamic parameters. Finally, the control renders the bilateral teleoperator output strictly passive for stable physical interactions with the human user and the environment. Comparative experiments verify the effectiveness of the proposed control in the presence of time-varying communication delays.

Topics & Concepts

TeleoperationPassivityControl theory (sociology)TeleroboticsComputer scienceControl engineeringHaptic technologyControl (management)RobotEngineeringSimulationMobile robotArtificial intelligenceElectrical engineeringTeleoperation and Haptic Systems
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